Abstract
For solving the problem of limited synthetic aperture radar (SAR) labeled samples, an initial SAR target recognition algorithm based on complex Gaussian-Bayesian online dictionary learning is here presented. The amplitude and phase information of SAR images is an important discriminator for target recognition, which derives significant statistical distribution-based target recognition. First, to better fit the SAR images and to reduce the computational complexity, a complex Gaussian distribution (CGD) model in the context of dictionary learning was established to model SAR images. Second, as the discriminative dictionary can be learned in conjunction with modeling the distribution characteristics of SAR images, a discriminative dictionary of the distributed model had to be learned. Finally, to solve the problem of limited labeled samples and the time consumption of the existing algorithms, the semi-supervised online dictionary learning method was used to add the training samples to update the dictionary. The moving and stationary target acquisition and recognition (MSTAR) dataset was used to complete the experiment, and then, several comparison methods were used to ensure fairness. Experimental results revealed that the proposed algorithm was better than the compared algorithms consistently in the case of different-sized training samples. The proposed method can reach an accuracy of 94.52% when using 20% training samples which is much higher than the comparison algorithms. Moreover, the proposed method is 0.5% higher than the second-best method when using the whole training samples.
Highlights
Synthetic aperture radar (SAR) has a vital function in Earth observation and remote sensing
In this paper, a complex Gaussian–Bayesian online dictionary learning method was presented to solve the problem of SAR target recognition with limited labeled samples
For the sake of solving the problem of limited labeled samples, a semi-supervised online dictionary learning method was used, so that the test samples are added to the training process gradually
Summary
Synthetic aperture radar (SAR) has a vital function in Earth observation and remote sensing. A new feature extraction algorithm based on the Zernike moment for processing SAR target recognition was proposed in [5] These methods were validated by experiments on MSTAR datasets. One type of algorithm based on models involves setting up a physical model for the SAR targets, for example, the model of the scattering center [10] These algorithms can achieve satisfactory recognition results, their computational complexity is large. To effectively utilize the information of unlabeled samples in the learning process, the semi-supervised method for SAR target classification is used in [22]–[25]. The major contributions of this work are summarized below: 1) A CGD model in the context of dictionary learning is proposed to fit SAR images It can capture the amplitude and phase information of SAR images to enhance the classification accuracy. The experimental results on the MSTAR dataset demonstrated the utility of the proposed algorithm
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